大鼠疑核致密部、半致密部和疏松部内运动神经元和中间神经元的树突形态

Dendritic morphology of motor neurons and interneurons within the compact, semicompact, and loose formations of the rat nucleus ambiguus.

作者信息

Fogarty Matthew J

机构信息

Department of Physiology and Biomedical Engineering, Mayo Clinic, Rochester, MN, United States.

出版信息

Front Cell Neurosci. 2024 Jun 12;18:1409974. doi: 10.3389/fncel.2024.1409974. eCollection 2024.

DOI:10.3389/fncel.2024.1409974

PMID:38933178

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11199410/

Abstract

INTRODUCTION

Motor neurons (MNs) within the nucleus ambiguus innervate the skeletal muscles of the larynx, pharynx, and oesophagus. These muscles are activated during vocalisation and swallowing and must be coordinated with several respiratory and other behaviours. Despite many studies evaluating the projections and orientation of MNs within the nucleus ambiguus, there is no quantitative information regarding the dendritic arbours of MNs residing in the compact, and semicompact/loose formations of the nucleus ambiguus..

METHODS

In female and male Fischer 344 rats, we evaluated MN number using Nissl staining, and MN and non-MN dendritic morphology using Golgi-Cox impregnation Brightfield imaging of transverse Nissl sections (15 μm) were taken to stereologically assess the number of nucleus ambiguus MNs within the compact and semicompact/loose formations. Pseudo-confocal imaging of Golgi-impregnated neurons within the nucleus ambiguus (sectioned transversely at 180 μm) was traced in 3D to determine dendritic arbourisation.

RESULTS

We found a greater abundance of MNs within the compact than the semicompact/loose formations. Dendritic lengths, complexity, and convex hull surface areas were greatest in MNs of the semicompact/loose formation, with compact formation MNs being smaller. MNs from both regions were larger than non-MNs reconstructed within the nucleus ambiguus.

CONCLUSION

Adding HBLS to the diet could be a potentially effective strategy to improve horses' health.

摘要

引言

疑核内的运动神经元支配喉部、咽部和食管的骨骼肌。这些肌肉在发声和吞咽过程中被激活，并且必须与多种呼吸及其他行为相协调。尽管有许多研究评估了疑核内运动神经元的投射和方向，但对于位于疑核紧密、半紧密/疏松结构中的运动神经元的树突分支，尚无定量信息。

方法

在雌性和雄性Fischer 344大鼠中，我们使用尼氏染色评估运动神经元数量，并使用高尔基-考克斯浸染法评估运动神经元和非运动神经元的树突形态。对横向尼氏切片（15μm）进行明场成像，以立体学方式评估紧密和半紧密/疏松结构内疑核运动神经元的数量。对疑核内高尔基浸染神经元（横向切片180μm）进行伪共聚焦成像，并进行三维追踪以确定树突分支情况。

结果

我们发现紧密结构中的运动神经元比半紧密/疏松结构中的更为丰富。半紧密/疏松结构的运动神经元的树突长度、复杂性和凸包表面积最大，紧密结构的运动神经元则较小。两个区域的运动神经元都比在疑核内重建的非运动神经元大。

结论

在饮食中添加HBLS可能是改善马匹健康的一种潜在有效策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1fd2/11199410/5d9fc5644fa7/fncel-18-1409974-g001.jpg

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大鼠疑核致密部、半致密部和疏松部内运动神经元和中间神经元的树突形态

Dendritic morphology of motor neurons and interneurons within the compact, semicompact, and loose formations of the rat nucleus ambiguus.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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